What is MDI Lau Gatignon, CLIC Workshop 2015MDI Status and Plans3 The Machine Detector Interface must ensure optimum luminosity for the experiment(s) with minimal backgrounds and includes the local environment and infrastructure.It integrates the post-collision line. The baseline for the CDR was based on a concept with two detectors operating in push-pull mode and with the final focus quadrupoles QD0 as close as possible to the interaction point (L* = 3.5 m), i.e. in the detectors. The MDI design included concepts for the QD0 design as well as its stabilisation and pre-alignment, but also IP feedback, BeamCal and Lumical integration, vacuum layout, cavern layout, and so forth.
MDI Status and Plans Lau Gatignon / EN-MEF On behalf of the MDI
working group Outline What is MDI Announced changes to detector
model Changes to MDI Plans Lau Gatignon, CLIC Workshop 2015MDI
Status and Plans2 What is MDI Lau Gatignon, CLIC Workshop 2015MDI
Status and Plans3 The Machine Detector Interface must ensure
optimum luminosity for the experiment(s) with minimal backgrounds
and includes the local environment and infrastructure.It integrates
the post-collision line. The baseline for the CDR was based on a
concept with two detectors operating in push-pull mode and with the
final focus quadrupoles QD0 as close as possible to the interaction
point (L* = 3.5 m), i.e. in the detectors. The MDI design included
concepts for the QD0 design as well as its stabilisation and
pre-alignment, but also IP feedback, BeamCal and Lumical
integration, vacuum layout, cavern layout, and so forth. The CDR
concept: Lau Gatignon, CLIC Workshop 2015MDI Status and Plans4 CDR
Detector Concepts Lau Gatignon, CLIC Workshop 2015MDI Status and
Plans5 L* = 4.4 m L* = 3.5 m Very similar but different L* (so far)
QD0 quadrupoles Support tubes MACHINE DETECTOR INTERFACE Vacuum IP
Feedback Beamcal+ Lumical Anti-solenoid +Stabilization +
prealignment Plus others .. Post collision line Some justifications
for the CDR choice Lau Gatignon, CLIC Workshop 2015MDI Status and
Plans7 The choice of short L* was justified by the fact that this
option would provide the maximum (peak) luminosity this layout is
the most challenging (If you have a plausible solution for short
L*, the longer L* should be easier for the stabilisation,
radiation, B-field, etc) at the time the pre-alignment tolerance
was considered unrealistic (2 m for L*=8 m, 10 m for L* = 3.5.m).
Since then significant progress has been made in the BDS optics.
Announced changes to the detector model Lau Gatignon, CLIC Workshop
2015MDI Status and Plans8 The detector team has decided to
concentrate for the time being on a single detector with
all-silicon tracking. No more push-pull A number of parameters have
been frozen to allow consistent studies on detector optimisation
and performance. For the forward region design they concentrate now
on the long L* solution with QD0 in the tunnel, i.e. outside the
detector. The exact value of L* remains to be defined precisely.
This has major implications for MDI Some of the frozen parameter
values Lau Gatignon, CLIC Workshop 2015MDI Status and Plans9
ParameterValue Magnetic field of detector solenoid4 T Inner bore
radius3.2 m Inner layer radius of vertex detector31 mm Half length
of tracking detector2.3 m Tracking detector radius1.5 m Si-W
electromagnetic calorimeter25 layers Scintillator-steel hadronic
calorimeter 7.5 I The detector length and L* depend on shortening
of end yokes, end coils, Lau Gatignon, CLIC Workshop 2015MDI Status
and Plans10 What if no push-pull A number of constraints for access
to QD0 and/or vacuum connections could be dropped. Also the need to
isolate the QD0 vacuum tube may no longer be so imperative. Cedric
Garion from TE/VSC has e.g. had a first look at the vacuum layout
implications: see next slide. Opening of the detector and access to
equipment may become simpler. Lau Gatignon, CLIC Workshop 2015MDI
Status and Plans11 Vacuum, Surfaces & Coatings Group Technology
Department MDI Status and Plans12 Beam Line Sectorisation Scheme
QD0 Detector QD0 Post- Collision Vacuum line Machine Vacuum line
Post-Collision Vacuum line Machine Vacuum line = Sector valve Short
L*: = Pumping ports* Short L*, no push-pull *Pumping port number
and position could change depending on pressure requirements or
space constraints Cedric Garion C.Garion QD0 in the tunnel or not
QD0 in the detector takes away a significant fraction of the
acceptance in the forward region. Although with recent HTS magnet
technology it may be possible to reduce the loss. Due to the
presence of a strong magnetic field, higher radiation and lack of
space and access inside the detector some critical components may
require more or longer interventions, leading to loss of integrated
luminosity. For the chosen L* value the BDS optics must be
re-optimised (impact on QD0 parameters, required pre-alignment
precision, etc). In case QD0 moves to the tunnel, the question is
legitimate whether the anti-solenoid and/or IP feedback are still
required inside the detector and how their implementation must be
revised. Lau Gatignon, CLIC Workshop 2015MDI Status and Plans13 In
the end a fair comparison between short and long L* in terms of
physics performance can be made. Some work has started Lau
Gatignon, CLIC Workshop 2015MDI Status and Plans14 Michele Modena
has started studies for a more compact QD0 magnet design using HTS
technology. This could reduce significantly the acceptance loss for
a short L* implementation but also reduce the weight to be
stabilised for a long L* implementation. See Micheles presentation.
Cedric Garion has prepared first preliminary ideas for a vacuum
layout Phil Burrows has discussed the implications for the IP
feedback system Many other systems have to be re-evaluated, such as
the QD0 pre-alignment scheme, stabilisation, pre-isolator, .
Thursday afternoon L* = 6.5 m Solenoid B-field Detector Lau
Gatignon, CLIC Workshop 2015MDI Status and Plans16 M-Modena Vacuum,
Surfaces & Coatings Group Technology Department MDI Status and
Plans17 Cedric Garion Beam Line Sectorisation Scheme = Sector valve
QD0 Detector QD0 Long L*: = Pumping ports* *Pumping port number and
position could change depending on pressure requirements or space
constraints Long L* option C.Garion Lau Gatignon, CLIC Workshop
2015MDI Status and Plans18 H.Mainaud Durand CLIC IP FB Performance
(CDR) Lau Gatignon, CLIC Workshop 2015MDI Status and Plans19 Single
random seed of GM C, CDR implementation Ph. Burrows, Resta Lopez IP
FB with long L* Lau Gatignon, CLIC Workshop 2015MDI Status and
Plans20 Current CDR geometry: time of flight IP BPM kicker IP ~ 24
ns Demonstrated FONT3 electronics latency = 13ns Estimated IPFB
latency = 37ns In principle, change of L* need not affect IPFB
position and latency, but needs to be engineered carefully,
considering other beam line components Ph.Burrows Plans Lau
Gatignon, CLIC Workshop 2015MDI Status and Plans21 First priority
is to fix the new (long) L* value. Hence regular MDI and more
frequent smaller MDI layout meetings to look at the detailed layout
This will allow the BDS team to design a new optics and hence to
define the new parameters for QD0, as well as (e.g.) the luminosity
achievable. Look in detail at the many implications on all MDI
systems, including QD0, anti-solenoid, stabilisation, pre-isolator,
pre-alignment, IP feedback, Beamcal and Lumical integration,
vacuum, .) Only at a later stage revise the more external
parameters (cavern layout, RP aspects, ) See F.Plassard last Monday
The MDI working group Lau Gatignon, CLIC Workshop 2015MDI Status
and Plans22 A.Herv, A.Aloev, A.Vorozhtsev, A.Gaddi, A.Jeremie,
A.Latina, A.Sailer, B.Dalena, B.Pilicer, L.Brunetti, C.Garion,
C.Collette, C.Perry, D.Schulte, D.Tommasini, D.Mergelkuhl,
E.Bravin, F.Duarte Ramos, F.Butin, F.Zimmermann, G.Christian,
G.Bobbink, H.Mainaud Durand, H.Burkhardt, H.Gerwig, J.Resta Lopez,
J.Axensalva, J.Vollaire, J.Snuverink, J.Osborne, K.Elsener,
K.Artoos, L.Linssen, M.Battaglia, M.Gastal, M.Guinchard, M.Modena,
P.Burrows, R.Tomas, S.Mallows, T.Lefevre, Th.Otto, H.van der Graaf,
V.Ziemann, Y.Levinsen, Y.Kim
